DE102013217834A1 - SF6-free switching device - Google Patents

Abstract

As a switching solution operating without SF6 gas, a switching device is proposed, which has a separating means (5) for producing a dielectric separation path, an extinguishing path means (12) for producing an extinguishing path spatially separated from the separation path and a common drive (41) for actuating the both means (5, 12).

Description

The invention relates to a switching device, in particular a load-break switch for medium-voltage systems, with a contact arrangement, and a method for switching such a switching device.

Gas-insulated switchgear are known from the prior art. In these fully gas-tight encapsulated switchgear, the switching process takes place under inert gas. As a protective gas is sulfur hexafluoride (SF6), which has a three- to four-fold higher dielectric strength than air at atmospheric pressure. Compared to air-insulated switchgear gas-insulated switches are characterized by a compact design.

A disadvantage of switchgear with SF6 gas, inter alia, that during operation poisonous fluoride compounds arise and therefore the maintenance of these systems is relatively expensive.

It is an object of the present invention to provide a switching solution operating without SF6 gas. This object is achieved by a switching device according to claim 1 or by a method for switching a switching device according to claim 8.

The advantages and embodiments explained below in connection with the method also apply mutatis mutandis to the switching device according to the invention and vice versa.

The switching device according to the invention comprises a contact arrangement with a separating line means for producing a dielectric separating line, an extinguishing line means for producing an extinguishing line spatially separated from the separating line and a common drive for actuating the two means.

The method according to the invention involves the production of a dielectric separation path with the aid of a separation section means, the production of a deletion path spatially separated from the separation section with the aid of an extinguishing path means and the actuation of the two means by means of a common drive.

Advantageous embodiments of the invention are specified in the subclaims.

In conventional SF6 switch-disconnectors, the dielectric separation path and the extinction path are identical. The invention proposes to use instead of SF6 as inert gas another gas for the realization of the dielectric separation path, for example compressed air, which has a sufficient dielectric strength. To turn off the power then a deletion distance is required in addition to the SF6-free separation path. The invention proposes a spatially separated from the separation path, arranged in series with the separation path deletion distance. At the same time it is proposed to use a common drive for producing the separation distance in a gas environment on the one hand and for producing the extinguishing path on the other. This provides an SF6-free compressed gas switch, which is characterized by a very space-saving, compact design.

An embodiment of the invention has proven to be particularly advantageous in which the means for producing the extinguishing path comprises a vacuum interrupter as a current-disconnecting element. The selection and arrangement of the Trennstrecken- and extinguishing path means is chosen such that the separation distance condition is already met solely by the separation distance produced by the separating means. The vacuum interrupter provides only an additional, connected in series separation section in a vacuum, so there is additional security. Since the vacuum interrupter has no current carrying function and is only needed to extinguish the arc, the material selection for the contacts of the vacuum interrupter is only of minor importance. Thus, for example, instead of conventional contact materials such as copper chromium and pure copper, pure stainless steel or other cheaper material can be used.

The inventive sequence of opening and closing the contacts involved is made possible by the fact that between the two fixed contacts a low-impedance main current path and a high-impedance secondary current path are provided. The resistance ratio of secondary circuit to main circuit is preferably greater than 10.

In this case, in a preferred embodiment of the invention, in addition to a arranged between the two fixed contacts, drivable, from a contact position in a disconnected position and back movable movable contact, which forms a main current path between the fixed contacts and in its disconnected position, the desired dielectric separation path in its contact position, also a provided in its contact position a fixed contact contacting migratory contact, which is mechanically connected to the moving contact such that it retraces the movement of the moving contact or mitvollzieht, wherein the wandering contact is connected to the connected to the other fixed contact vacuum interrupter and together with this forms a Nebenstrompfad between the fixed contacts.

Depending on the drive, design and arrangement of the fixed contacts and the moving contacts, here so the moving contact and the wander contact, the desired timing of the separation or closing of the electrical connections and thus the choice of the main or Nebenstrompfades during the off or Switch-on determined. Thus, an anticipatory or subsequent opening or closing of the contacts of the contact arrangement can be achieved. In particular, the contact system of the vacuum interrupter can be opened and closed particularly easily in a defined manner adapted to the requirements of the switching device.

In a particularly advantageous embodiment of the invention, the switch-off characterized by the fact that in a closed main current path and a closed Nebenstrompfad between two fixed contacts of the switching device, first the electrical connection between the moving contact and a fixed contact and then the electrical connection between the moving contact and the other Fixed contact is disconnected, whereby the main current path is opened and a Teiltrennstrecke is made before by opening the Nebenstrompfades the extinguishing path and then the complete separation distance is established.

In a particularly advantageous embodiment of the invention, the switch-on is characterized in that at an open main current path and an opened Nebenstrompfad between two fixed contacts of the switching device in the absence of extinguishing path first, the electrical connection between the moving contact and the other fixed contact and then the electrical connection between the Moving contact and the one fixed contact is made, whereby the main current path is closed.

In a preferred embodiment of the invention, the traveling contact, which is designed, for example, as a contact wire or contact plate, remains closed during a switch-off operation when the moving contact has already been opened. This ensures that the vacuum interrupter has sufficient time to extinguish the arc. The traveling contact only opens at the end of the opening movement of the moving contact.

In a preferred embodiment of the invention, the contact arrangement is designed such that the vacuum interrupter is safely de-energized during a switch-on. This is preferably achieved by an adapted geometric shape of the contacts involved, which ensure a certain timing of the contact. Since the vacuum interrupter does not have to be designed for short-circuit currents, neither high Kontaktandruckkräfte nor common contact materials are needed.

In a preferred embodiment of the invention, the moving contact which carries out a pivoting movement for producing the separating path is driven directly by a drive shaft fixedly connected to the moving contact. The drive concept for the common drive of separating means and extinguishing means is based on the fact that this pivoting movement is converted into a rectilinear movement to open or close the vacuum interrupter. For this purpose, a coupled to the movement of the moving contact link disc with a shift gate, with the aid of which shift gate a shift pin of the contact system of the vacuum interrupter is actuated. Due to the shape of the shift gate as well as the way the attachment of the link plate to the moving contact, the operation of the contact system of the vacuum interrupter can vary widely. It is a great advantage of this drive concept that no separate drive for the vacuum interrupter is required, whereby a very compact design of the switch is possible.

The switching device according to the invention can be used in particular as a load-break switch for medium-voltage switchgear. However, a use of the basic principle according to the invention is also possible in other switching devices or for other applications.

The above-described characteristics, features, and advantages of this invention, as well as the manner in which they will be achieved, will become clearer and more clearly understood in connection with the following description of the embodiments, which will be described in detail in conjunction with the drawings. Showing:

1 - 5 a first embodiment of the contact arrangement in various stages of a turn-off,

6 . 7 the first embodiment of the contact arrangement during a switch-on process,

8th - 10 a second embodiment of the contact arrangement with the switch closed.

All figures show the invention only schematically and with its essential components. The same reference numerals correspond to elements of the same or comparable function.

In 1 is a contact arrangement 1 of a circuit breaker according to the invention for a medium-voltage switchgear shown, which is designed as a rotary switch. The switch-disconnector comprises, for example, three of these contact arrangements 1 that have a common shift shaft 2 are driven.

The contact arrangement 1 includes two diametrically opposed fixed contacts 3 . 4 and one between the fixed contacts 3 . 4 arranged, drivable rotary contact as moving contact 5 , The moving contact 5 has contact points at both of its free ends 6 . 7 for contacting the fixed contacts 3 . 4 on and is, driven by the shift shaft 2 , by turning around by the switching shaft 2 fixed pivot axis from a contact position in which its contact points 6 . 7 in a conductive connection with the fixed contacts 3 . 4 stand and thus a main current path between the fixed contacts 3 . 4 train ( 1 ), in a separation position in which its contact points 6 . 7 in no conductive connection with the fixed contacts 3 . 4 stand ( 6 ), and conversely from the disconnected position into the contact position can be transferred. When contacting the designed as a single knife fixed contacts 3 . 4 from the contact points 6 . 7 the moving contact 5 slidably contacted, with the contact points 6 . 7 are designed as receiving contacts whose contact surfaces by contact pressure springs 8th be charged. When opening the contacts both contact points 6 . 7 the moving contact 5 on a circular path from the fixed contacts 3 . 4 moved away until the desired dielectric separation distance between the fixed contacts 3 . 4 and the contact points 6 . 7 the moving contact 5 is made.

A secondary current path between the two fixed contacts 3 . 4 becomes with the help of a Wanderkontaktes in the form of a spring wire 11 formed, the permanently with a Löschstrecke providing vacuum interrupter 12 is conductively connected. The at the shift shaft 2 supporting and with the vacuum interrupter 12 electrically conductive connected spring wire 11 lies with the switch closed parallel to the input side arm 13 the moving contact 5 and is independent of the moving contact 5 movable. With his as a contact point 15 serving free end lies the spring wire 11 behind a holding nose 16 on the input side fixed contact 3 and thus provides an electrical connection to this fixed contact 3 ago. The vacuum interrupter 12 on the other hand is permanently connected to the outgoing fixed contact 4 electrically connected. The spring wire 11 is also with the moving contact 5 electrically connected.

In the in 1 The illustrated switch position is the low-impedance main current path, as well as the high-impedance secondary current path with the vacuum interrupter closed 12 closed. Due to the resistance conditions, a rated current flows via the moving contact 5 ,

Will now by rotation of the shift shaft 2 in the opening direction 17 initiating a switch-off of the switch, first the electrical connection between the input-side contact point 6 the moving contact 5 and the input-side fixed contact 3 separated ( 2 ). Due to the structural design of the downstream contact point 7 the moving contact 5 is this contact point 7 with the departure-side fixed contact 4 but still connected, so that still closed vacuum interrupter 12 the current over the spring wire 11 and the departure-side arm 14 the moving contact 5 flows.

With continued rotation of the moving contact 5 in the opening direction 17 finally becomes the departure point 7 the moving contact 5 from the departure-side fixed contact 4 separated ( 3 ). The current now flows with closed vacuum interrupter 12 over the secondary current path, while the moving contact 5 and that the main current path is de-energized.

In a further rotation of the shift shaft 2 is by a in the 1 to 7 not shown, in detail described below in detail common drive system 41 of moving contact 5 and vacuum interrupter 12 the vacuum interrupter 12 opened and an extinguishing path in vacuum made so that there ignites an arc ( 4 ). Because the spring wire 11 still electrically with the input-side fixed contact 3 is connected, but it comes at this fixed contact 3 to no arc. With open vacuum interrupter 12 the current is cleared at the next current zero crossing. The switch is now de-energized.

By a subsequent further rotation of the switching shaft 2 in the opening direction 17 becomes the moving contact 5 brought into its final separation position in which the separation distance is completely established. In connection with this end movement is also the electrical connection between the spring wire 11 and the input-side fixed contact 3 separated by the due to the movement of the moving contact 5 strongly bent, spring-loaded spring wire 11 from the retaining nose 16 on the fixed contact 3 snaps out and thus the movement of the moving contact 5 retraces ( 5 ). The contact arrangement 1 is executed and the individual components are coordinated so that it is ensured that the snapping out of the spring wire 11 and thus a movement of the spring wire 11 in its disconnected position takes place only after a short wait after the switch is de-energized. The final separation position of all contacts is now reached.

If the switch is to be turned on, by rotation of the switching shaft 2 in the opposite direction of closing 18 the contact points 6 . 7 the moving contact 5 back to the fixed contacts 3 . 4 too moved. First, the vacuum interrupter 12 with the help of the common drive system 41 closed again ( 6 ). Due to the structural design of the downstream contact point 7 the moving contact 5 then an electrical connection of the moving contact 5 with the departure-side fixed contact 4 produced ( 7 ). The contacting of the outgoing fixed contact 4 takes place before on the input side fixed contact 3 a rollover can take place.

At the end of the switch-on process by further rotation of the shift shaft 2 the moving contact 5 moved back in its contact position. From the input side arm 13 the moving contact 5 becomes the hiking contact 11 taken in his closing movement. Thus, the spring wire completes 11 the movement of the moving contact 5 With. The input-side contact point 6 the moving contact 5 and the spring wire 11 contact the input-side fixed contact 3 essentially at the same time, so that the in 1 shown switched on state is restored. The current flows between the two fixed contacts 3 . 4 over the main stream path.

It should be emphasized that during switching on the closed vacuum interrupter 12 no electricity flows. The vacuum interrupter 12 must therefore not be kept. The use of complex Kontaktandruckmittel is not required.

In an alternative, in the 8th and 9 illustrated variant of the wander contact is not in the form of a spring wire, but as a spring-loaded contact plate 21 executed. Apart from a few other, minor structural changes, the basic mode of operation of the switch is unchanged compared to the previously described variant.

The contact sheet 21 is rotatable on the shift shaft 2 stored and thus independent of the moving contact 5 movable. When the switch is closed, the contact plate is located 21 again parallel to the input side arm 13 the moving contact 5 , That as a contact point 22 serving free end of the contact sheet 21 , which is designed in the manner of a tab contacted with a closed switch designed as a clamping jaw, in the opening direction 17 open plug-in contact 23 , the at the input side fixed contact 3 attached and conductively connected by being in the push-in contact 23 rests. With the moving contact 5 is the contact sheet 21 electrically connected again.

In the 8th to 10 shown is a stationary carrier 24 that together with the stem 2 , Shift gates 34 and other components, as described below, a drive system 41 forms, as in the previously related to the 1 to 7 described embodiment may be used.

The carrier 24 comprises two wings arranged parallel to each other 25 in which the shift shaft 2 is stored. Between the two wings 25 is the rotation with the shift shaft 2 connected moving contact 5 arranged. The two wings 25 each have a slot at corresponding points 26 on. Between the wings 25 arranged is the switching pin 27 the contact system of the vacuum interrupter 12 whose free end is in the direction of the moving contact 5 pointing. On the shift pin 27 are on both sides transverse pins 28 attached, each in one of the two slots 26 the wing 25 einliegen.

In the in the 8th to 10 shown switching position is the vacuum interrupter 12 closed. The shift pin 27 is in its retracted position. The pencils 28 lie at those ends of the slots 26 in the direction of the switching chamber of the vacuum interrupter 12 point.

A U-shaped, hereinafter referred to briefly as a cam design element 31 that the moving contact 5 with his underground reason 32 embraces, lies with his U-thighs 33 between the wings 25 of the carrier 24 one. The U-thighs 33 are designed as link plates, the corresponding shift gates 34 each having one in the pivoting plane of the moving contact 5 Define horizontal cam track. The U-thighs 33 are arranged such that the shift pin 27 the vacuum interrupter 12 between them and the two in the slots 26 the wing 25 inlaid pins 28 previously through the shift gates 34 the U-thigh 33 round lead. The pencils 28 lie on the of the contact position of the moving contact 5 pointing away ends of the shift gates 34 at.

The cam 31 is fixed to the moving contact 5 connected and therefore performs all movements of the moving contact 5 With. Here is the shift pin 27 the contact system of the vacuum interrupter 12 about the in the shift gates 34 inlaid pins 28 mechanically to the moving contact 5 coupled, that a rotation of the moving contact 5 and thus a pivoting of the U-legs 33 an axial displacement of the shift pin 27 in shift direction 35 and thus an actuation of the contact system and a switch-off of the vacuum interrupter 12 causes. The contact system of the vacuum interrupter 12 is opened and made necessary for the extinguishing line tube stroke. When the switch is open then the pins are 28 to the opposite, to the moving contact 5 facing ends of the shift gates 34 or to the of the switching chamber of the vacuum interrupter 12 pointing away ends of the slots 26 (not shown).

Must be in preparation for the switch-on the vacuum interrupter 12 be closed again, this is done by the rotation of the switching shaft 2 in the closing direction 18 together with a pivoting of the moving contact 5 in that the shift pin 27 due to the guided driving of the pins 28 in the shift gates 34 again axially on the vacuum interrupter 12 to be moved. In a further movement of the shift shaft 2 in this direction are by the moving contact 5 and the contact sheet 21 both main current path and secondary current path closed again. For this purpose, the contact plate 21 again from the moving contact 5 taken. To a simultaneous movement of contact plate 21 and moving contact 5 to reach, has the contact plate 21 below the contact point 22 one perpendicular from its main body wegstehende and in the direction of the moving contact 5 extending carrier to (in 8th not visible), whose position by reference numerals 19 is specified.

The delayed separation of the outgoing fixed contact 4 from the moving contact 5 is at the in the 8th to 10 illustrated embodiment of the invention by an opening direction 17 extended contact point 37 of the fixed contact 4 realized.

Unlike the one in the 1 to 7 illustrated variant with the spring wire 11 executed migratory contact, in which this drive system 41 beyond that no further function are fulfilled, in connection with the 8th to 10 described variant with serving as a wander contact plate 21 both on the cam 31 as well as on the contact plate 21 Provided stop elements. With one on the cam 31 provided stop element 42 hits the cam 31 during a turn-off on a designated stop element 43 of the contact sheet 21 on, just before the moving contact 5 has reached its final separation position. Due to the momentum transfer, the contact plate 21 from the push-in contact 23 on the input side fixed contact 3 solved and follows, acted upon by a suitable spring system, the moving contact 5 in its disconnected position to the electrical connection between the contact plate 21 and the input-side fixed contact 3 to disconnect and thus interrupt the Nebenstrompfad again after the switch is de-energized, see. the in 5 illustrated switching state. As a spring system for acting on the contact plate 21 one serves on the axle 2 attached torsion spring 44 , one of which is a spring arm 45 along the contact plate 21 extends and for attachment to the contact plate 21 with its bent free end in one in the contact plate 21 existing retaining opening 46 is in, as in 8th shown.

The electrical connection between the contact plate 21 and the vacuum interrupter 12 can be made solely by their mechanical connection. In order to ensure a complete electrical connection even during vibrations, as may occur during the switching process, an additional, electrically conductive connection connection is advantageously provided, for example in the form of a connection cable 47 or the like, as already in 3 between the spring wire 11 and the vacuum interrupter 12 shown (not shown in the other figures). The connection cable 47 does not require a thick conductor cross-section, since it serves only as a secondary current path. It can therefore be made very thin.

Although the invention has been further illustrated and described in detail by the preferred embodiment, the invention is not limited to the disclosed examples, and other variations can be derived therefrom by those skilled in the art without departing from the scope of the invention.

LIST OF REFERENCE NUMBERS

 1

Contact configuration

 2

shift shaft

 3

input-side fixed contact

 4

outgoing fixed contact

 5

moving contact

 6

input-side contact point

 7

 departure point

 8th

Contact pressure spring

11

 spring wire

12

 Vacuum interrupter

13

 Input side arm of the moving contact

14

 Outgoing arm of the moving contact

15

 Contact point of the spring wire

16

 retaining nose

17

 opening direction

18

 closing direction

19

 Position of the driver

21

 contact sheet

22

 Contact point of the contact sheet

23

 slide-contact

24

 carrier

25

 Hydrofoil

26

 Long hole

27

 switching pin

28

 pen

31

 cam

32

 U-Grund

33

 U-leg

34

 shift gate

35

 switching direction

37

 Contact point of the departure-side fixed contact

41

 drive system

42

 stop element

43

 stop element

44

 torsion spring

45

 spring arm

46

 holding opening

47

 connection cable

Claims (10)

Switchgear, in particular switch disconnector, with a contact arrangement ( 1 ), characterized by a separating means ( 5 ) for producing a dielectric separating path, an extinguishing path means ( 12 ) for producing an extinguishing path spatially separated from the separation path and a common drive ( 41 ) for actuating the two means ( 5 . 12 ). Switching device according to Claim 1, characterized in that the isolating means comprises one between two fixed contacts ( 3 . 4 ) arranged, drivable, from a contact position in a disconnected position and back convertible moving contact ( 5 ), which in its contact position a main current path between the fixed contacts ( 3 . 4 ) trains. Switching device according to Claim 2, characterized in that the extinguishing path means comprises a vacuum interrupter ( 12 ). Switching device according to Claim 3, characterized by a fixed contact which can be converted from a contact position into a disconnected position and back, in its contact position ( 3 ) contacting migratory contact ( 11 ). Switching device according to claim 4, characterized in that the vacuum interrupter ( 12 ) with the walking contact ( 11 ) and the other fixed contact ( 4 ) and together with the walking contact ( 11 ), when it is in its contact position, a Nebenstrompfad between the fixed contacts ( 3 . 4 ) trains. Switching device according to claim 4 or 5, characterized in that the traveling contact ( 11 ) with the moving contact ( 5 ) is mechanically connected such that it detects the movement of the moving contact ( 5 ) or follow. Switching device according to one of claims 2 to 6, characterized in that the common drive ( 41 ) one to the movement of the moving contact ( 5 ) coupled link disc ( 31 ) with at least one shift gate ( 34 ), by means of which switching gate ( 34 ) a shift pin ( 27 ) of the contact system of the vacuum interrupter ( 12 ) is operable. Method for switching a switching device with a contact arrangement ( 1 ), characterized by the production of a dielectric separation path by means of a separating means ( 5 ) and producing an extinguishing path which is spatially separated from the separation path with the aid of an extinguishing path means ( 12 ), whereby the actuation of the two means ( 5 . 12 ) by means of a common drive ( 41 ) he follows. A method according to claim 8, characterized in that in a closed main current path and a closed Nebenstrompfad between two fixed contacts ( 3 . 4 ) of the switching device during a switch-off initially the electrical connection between the moving contact ( 5 ) and the one fixed contact ( 3 ) and then the electrical connection between the moving contact ( 5 ) and the other fixed contact ( 4 ) is opened, whereby the main current path is opened and a parting line is prepared before by opening the Nebenstrompfades the extinguishing path and then the complete separation distance is established. A method according to claim 8, characterized in that at an open main current path and an opened Nebenstrompfad between two fixed contacts ( 3 . 4 ) of the switching device during a switch-on in the absence of extinguishing path, first the electrical connection between the moving contact ( 5 ) and the other fixed contact ( 4 ) and then the electrical connection between the moving contact ( 5 ) and the one fixed contact ( 3 ) is made, whereby the main current path is closed.

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